1999
DOI: 10.1021/ic991048k
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Design, Structure, and Optical Properties of Organic−Inorganic Perovskites Containing an Oligothiophene Chromophore

Abstract: A quaterthiophene derivative, 5,5' "-bis(aminoethyl)-2,2':5',2' ':5' ',2' "-quaterthiophene (AEQT), has been selected for incorporation within the layered organic-inorganic perovskite structure. In addition to having an appropriate molecular shape and two tethering aminoethyl groups to bond to the inorganic framework, AEQT is also a dye and can influence the optical properties of lead(II) halide-based perovskites. Crystals of C(20)H(22)S(4)N(2)PbBr(4) were grown from a slowly cooled aqueous solution containing… Show more

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Cited by 354 publications
(413 citation statements)
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“…Although charge transport between the inorganic layers is limited due to the large spacing between the individual layers, vertical-crystal-growth (i.e., inorganic sheets perpendicular to the substrate surface) techniques could help overcome this limitation. [17,51] The increased structural freedom creates new possibilities to incorporate larger and more complex structures with tailored photophysical and electronic-transport properties beyond the archetypal perovskite structure, such as conjugated systems with π-π interactions (e.g., phenylethylamines [49] ), organic dyes (e.g., thiophenes [52] ), or fluorophores. However, the nature of the intercalated molecules has implications with respect to the layered structure.…”
Section: Reviewmentioning
confidence: 99%
See 1 more Smart Citation
“…Although charge transport between the inorganic layers is limited due to the large spacing between the individual layers, vertical-crystal-growth (i.e., inorganic sheets perpendicular to the substrate surface) techniques could help overcome this limitation. [17,51] The increased structural freedom creates new possibilities to incorporate larger and more complex structures with tailored photophysical and electronic-transport properties beyond the archetypal perovskite structure, such as conjugated systems with π-π interactions (e.g., phenylethylamines [49] ), organic dyes (e.g., thiophenes [52] ), or fluorophores. However, the nature of the intercalated molecules has implications with respect to the layered structure.…”
Section: Reviewmentioning
confidence: 99%
“…For example, well-ordered inorganic CuX 6 octahedral layers are formed in (C 6 H 5 (CH 2 ) 2 NH 3 ) 2 CuX 4 (X = Br − or Cl − ), in which the ammonium groups are hydrogen bonded to the halides, while distorted layered structures are formed with PbCl 6 -based perovskites. [24,52] In addition, the optical performance is strongly dependent on the chain length of the R-group in R-NH 3 + . [62,63] A five-fold PL increase was observed in (C 6 H 5 (CH 2 ) m ) 2 PbBr 4 by changing m from 1 to 2.…”
Section: Reviewmentioning
confidence: 99%
“…Early in the 1970s, researchers had published papers about 2D perovskite materials in theoretical modelling [29][30][31][32][33][34] [35][36][37]. One of the two molecules must be sufficiently small to satisfy the tolerance limits, thus steadily existing in the gap of metal-halogen octahedron frame, named as small organic cation (A).…”
Section: Organic Cations In 2d Perovskitesmentioning
confidence: 99%
“…It is presumed that small variations in a, b, c are due to the inherent instabilities of the 2D layer, attributed to the NH 3 head coupling to the inorganic layer. Moreover, it is possible that synthesis or re-crystallization with DMF slightly alters the unit cell [55,56]. Finally, it is noted that the actual geometrical packing of the OL molecule in the crystal structure of the associated 2D HOIS has not been determined yet and work on this is in progress.…”
Section: Morphological Properties Of Quasi-2d and 3d Hoismentioning
confidence: 99%